Press



Dec. 26, 1939. R, B TREER I 2,185,096

ATTORNEY.

Dec. 26, 1939.

R. B. TREER PRESS Filed Jung 26, 1937 w34..

8 Sheets-Sheet 2 INVENTOR.

ATTORNEY.

/M MMM/ff R. B. TREER Dec. 26, 1939.

PRESS 8 Sheets-Sheet; 3

Filed June 26. 1937 ATTORNEY.

R. B. TREER Dec. 26, 1939.

PRESS Filed June 2e, 1937 a' sneet's-sheet s l N VENTOR.

\ TTORNE Y.

R. B. TREER Dec. 26, 1939.

PRESS Filed June 26, 1937 8 vSheets-Shea?, 7 v

INVENTOR.

#wel www( ATTORNEY.

R. B. TREER Dec. 26, 1939.

PRESS s sheets-sheet a Filed June 26, 1957 INVENTOR. /PVM /w ATTORNEY.

Patented Dee'. ze, 1939] UNITED 4 STATES yPATla.1\JT ,OFFICE Cleveland Punch & Shear' Works Company,

Cleveland, Ohio, a corporation of Ohio Application June 26, 1937, Serial No. 150,651

Thisinvention relates to a metal drawing press and has for objects to provide improved adjusting and control mechanism therefor, and improved clamping and unclamping mechanism as- 5 sociated with the adjusting mechanism.

In presses of this characterdiierent dies are used for different types of work and it is generally necessary to vary the die spaces, that is, the spaces between the slide and the base, to accommodate diierent sizes and types of dies. One of the objects of this inventionis-the provision of means for varying this space by adjusting the position of the'slide; another object of the invention is to provide in such a means a control mechanism that makes it impossible to operate the adjusting mechanism when the clamping mechanism therefor is in clamped position, or to operate the slide when the clamping mechanism for the adjusting mechanism is4 in unclamped position.

A further object is to provide separate and relatively movable clamping vand unclamping mechanism and adjusting mechanism. K

A further object-is to provide control means permitting operation of the pressure through one or a plurality of cycles4 for any selected adjustment, each cyclebeing initiated by the operator and completed automatically.

A further object is toprovide means for preventing operation/of the press during adjustment of the slide or during the unclamping and clamping operations antecedent and subsequent thereto respectively, and to provide for automatically stopping the press in the event the unclamping operation should be attempted during the operation thereof.

A further object is to prevent operation of the.

adjusting mechanism except as the next succeeding operation after completion of the un- .4 .clamping operation.

upon momentary closing of a switch the clampv ing operation is initiated and automatically completed, the adjusting mechanism is rendered inoperable and the press operating mechanisml is rendered operable." l

A further object is to provide an electric motor operated clamping meansin combination with means for operating the same lto a stall and A further object is to provide. means whereby/ (ci. 11s-'38) means responsive to stalling of the motor for deenergizing the same; also means rendering the clamping motor capable of reversing the clamping mechanism from stalled position. y

Other objects will be in part apparent and in 5' part pointed out` hereinafter in connection with the accompanying drawings wherein Fig. 1 is an elevational view of a press partially iii section embodying my invention; Fig. 2i is an"enlarge d fragmentary elevation showing the slide and 10 closely related mechanism; Fig. 3 is a section on the line 3--3 of Fig. 2; Figs. 4, 5 and 6 are sections on the lines 4-4 and 5-5,of Fig. 3 and 6 6 of Fig. 7, respectively; Fig. '1 is a section on the line '1 1 of Fig. 6; Fig. 8 is a section onthe 15 line 8-'8 of Fig. 1; Fig. l9 vis a fragmentary sectional view corresponding substantially to the line -9-9 of Fig. l; and Figs. 10 and 10 taken together constitute a wiring diagram of the electrical controls. '20

In the drawings, I have shown the various features of my' invention applied to a press of more or less usual general construction, having thev usual base I0, uprights II, betweenfwhich. the slide I2 is mounted for lvertical reciprocation, 25

Yand the crown I3 aiording a mounting for the tied together by means of bolts I5, which is the 35 standard practice in presses of this character.

Press drive The power transmission which imparts reciprocatory motion to the slide I 2 is housed within o the crown I3 which is composed of front and rear walls I6 and I'I, end walls I8 and top and bottom walls I9 and 29. Received in lsuitableopenings inthe bottom wall 20 are ttings 2| mounted on the uprights II, as indicated at 22. 45 Within the fittings 2l are bushings 23 within. which are received reciprocating cross heads 24 connected to the slide I2 in a manner hereinafter to be described. Pivoted to the cross heads 24, as indicated at 25 are connecting rods 29 50 which at their upper ends are provided with strap bearing portions coopeating with eccen- -trics 21. The 'eccentrlcs 21 are xed on shafts 28.

Fixedly carried bythe shafts 28 are gears 29 driven by pinions 30 on shafts 3|. Keyed on the the shaft 34 but located behind the plate |1, as

shafts 3| are gear 32 meshing with each other. One of the gears 32 is driven by means of a pinion 33 carried by shaft 34.

The motive power for the shaft 34 is derived from any suitable source of power connected with the flywheel or pulley u35 which is' coaxial with viewed in Fig. 1. Between the flywheel 35 and the shaft 34 is interposed a combined clutch and brake, consisting mainly of rotating parts coaxial with the shaft 34. The shaft 34 is4 mounted' in a series of bearings, one of which 36 is carried by the plate `|1, two others of which, 31 and 38, are carried by plates 39 and 48 parallel to the plate |1 and theright hand one of which 4| is carried by a U-shaped channel member 42 secured to the crown I3. As will be clearfrom Fig. 9, the flywheel 35 is mounted loosely on the shaft 34 and isadapted to be connectedthereto by means of a clutch indicated generally by the numeral 43.

The clutch 43 is of the multiple disk variety and,

being of usual construction, need not be described in detail. y

The clutch 43 is operated by a clutch actuating mechanism indicated generally by the numeral 44 and comprising a cylinder element 45 having an annular piston 48 therein. The piston 48 is actuated by compressed kair or other suitable uid pressure through ducts 41 communicating with an annular chamber 48 which in turn communicates through a T-shaped passage 49 in the shaft 34 with a xed passage 58 to the interior of a standard three-way valve 5| and thence to a f supply pipe 52 for compressed air or other source of uid pressure. The valve 5| is controlled by a` solenoid 53 and a spring 54, it being understood that when the solenoid 53 is energized, the lever 55 will be depressed against the resistance of the spring 54 with the result that compressed air or lthe like will be admitted to the clutchl actuator 44 causing the clutch 43 to be engaged. When the solenoid is not energized, the source of uid pressure will be cut off and a passage opened for exhaustion of iluid from the annular cylinder 45. It will be understood that when the solenoid 53 vis not energized, a plurality of springs 58 thereof beingkeyed to the shaft 34 and the xed portion thereof being munted on the element 42 by suitable bolts 59.

Adjusting mechanism' The slide I2 includes top and bottom plates 68 I .and 8| connected by longitudinally extending outer and inner plates 82 and 83, such outer plates being 'reinforced by ribs 64. Interposed between the plates 82 and 83 and engaging the bottom plate 8| are relatively short vertical supporting plates 65 upon which rest blocks 66 secured in any suitable manner to the plates 82 and 63. The blocks 66 are provided with cylindrical openings in their upper surfaces receiving the 'cylindrical heads 81 of the adjusting bolts 88 which are carried by the cross heads 24. The heads 81 are held in place by thrust elements 89 held in place by suitable studs. as best seen in Fig.

4. Keyed on the bolts 88 above the thrust element arenoso 89 are bevel gears 18 which rotate the bolts 88 and therebymove the slide l2 for vertical adjustment with respect to the cross heads 24. The bolts 68 work in nuts 1| which are secured to the cross heads 24 by studs 12. The bevel gears 18 are rotated by bevel pinions 13 mounted on shafts 15 carried by suitable bearing brackets 14. Keyed on the shafts 15 arebevel gears 18 which are j driven by bevel pinions 11 carriedby a shaft T8 (see Fig. 3). y Y

. Fixed on the shaft 18 is a gear 19 which meshes with and is driven bya pinion 88 carried by the armature shaft of a reversible motor 8|. It will be noted that the bevel gears 18 located at the same end of the crown |3 are rotated in opposite directions. Accordingly, I provide the corresponding bolts 88 with right and left hand threads respectively so that they will move up and down tog'ether. Similarly the bolts 68 at the same side of the crown I3 are providel with right and left threads respectively so that one pair of diagonally positioned bolts-68 rotate in one direction and the remaining pair of diagonally positioned bolts rotate in the opposite direction. It willA be obf-` vious that when the' motor 8| is energized to y rotate in the proper direction, the bolts 88 will Clamping mechanism Extending between the pairs of elements 1| l located at each side of the slide |2 are channel beams 82, each end of each of which is connected to a bifurcated fitting 83. Each of the fittings 83 has an upper branch 84 and a lower branch 85. Such branches are provided with openings receiving the lower reduced portions 1|a of the nuts 1|. The fittings 83 are supported by the nuts 1| through the medium of plates 88 secured thereto by suitable studs, best seen in Fig. 4.

Received between the `branches 84 and 85 of the b ifurcated elements 83 are clamping rings 81 which rings are split as indicated at 88 and provided with bores for receiving clamp bolts 89; It will be noted that the heads of the bolts 89 are received in suitable notches 98 adapted .to prevent rotation of the bolts with respect tothe elements 81. As will be clear from Fig. 3, thel reduced portions 1|l1 of thenuts -1| are notched as indicated at 9|. The.' notches 9| extend lupwardly to about the shoulder of the nuts 1|, that is, they are substantially co-extensive with the reduced 'portions'1 It will thus be clear that when the nuts 92 are tightened on the boltsv 89, the split rings 81 will be contracted and will ex thereduced portions 1| whereby to clamp them firmly against the bolts 88. The nuts 92 are polygonal in cross section as are also the elements 9 3 which are rotatably'carried by the shafts 94.

the Ashaft 94 with the nut 92 at the time'of asfI sembly or in case of replacement of the bolt 88 or related parts. Set screws 98 may be provided.

for preventing longitudinal motion -of the-sleeves 95'with respect .to the elements 93. The ele` ments 83 are rigidly held in prop er relation to the nuts 92 by brackets 81' secured to the fittings-88. Extending transversely of the elements .8 2 and secured thereto is a platform 98'upon which ismounted a reversible motor 99. A pinion |88 carried by the armature shaft of the motor-99 meshes with thegear II'0I carried by a transverse shaft |02 whichis mounted in suitable bearing brackets |03 carried by the channels 82. While it is a matter of y choice, I prefer to connect the gear tothe shaft |02 by 'lost' motion connection whereby, when the motor is started, it may be vallowed to attain .a suitable momentum before being required to pick up the load. This may be accomplished by any suitable mechanism, such as a sleeve |04 keyed to the shaft |02 and carrying a suitable arm |05 adapted to engage a projection |06 on the gear wheel |0| after having made substantially one turn. The shaft |02 carries suitable worms |01 which mesh with worm gears |08 carried by the shafts 94 and l housed within gear boxes I0 secured to the chan-l nels 82. It will thus be obvious that upon rotation of the motor 99 in one direction, the clamping elements 81.wi1l be caused to unclamp the elements 1 |n from the bolts 68 and that, upon rotation of the motor in the other direction, a clamping thereof will be effected.

Mechanical connection to electrical controls vided with an internally threaded opening receiving a threaded portion ||4 of one of the shafts .94. A pair of cams I5 and I I6 are formed integral with the lower surface of the element I3 as seen in Figs. 6 and '1. Secured to the plate I v below the guides ||2 are switch boxes. I1 and ||8 containing suitable switches provided with actuating arms ||9 and |20 operated by the cams I I5 and I6 respectively. Within the switch box I |8 is a pair of switch contacts |2| and |22 which are seen in plan view in Fig. 8 and which are adapted to be electrically connected by a bridging switch element |23 carried by the arm |24 when the arm is in the position shown in Fig. '7. Immediately Iabove the contacts |2| and |22 is a similar pair of contacts v|25 and |26 adaptedto be electrically connected by the switch element |21 carried by the arm |24 when the same is moved upwardly from the position shown in Fig. 7.

Within the switch box ||1 is'a pair of contacts |28 and |29 similar to those |2| and |22 seen in Fig. 8 and adapted to be electrically connected by a switch element |30 carried by the arm |3| which is actuated by the control arm II9connected to the arm |3| in the same manner as the control arm |20 is connected -to the switch arm |24. The connection between the switch arms |24 and I3|,

'and the control armsl I9 and |20 is sumciently yielding to' permit the cams I5 and I6 to move a predetermined desirable distance to the left from the position shown in Fig. '1. The relationship between the cams |l|6 and the switch arm |24 and switch contacts |25 and |26 is such that almost immediately upon starting the motor 99, the switch element |23 will leave the contacts I2| and |22, and the element |'21 will bridge contacts |28 and |29 at approximately the end of the stroke of the element I3, that is, just before the cam I5 causes the arm |3| to open the switch |30.

l Electrical controls and operation The electrical controls for the above described mechanism will now be described ln connection with 'the operation of the device, it being underof course that the slide may at the beginning of In order to initiate/ operation, the operator presses the unclamping switch |32 whereupon a circuit is completed from L2 through conductors |33, |34, |35 and |36, switch |32, conductor |31, switch |30, conductor |38, relay winding |39 and conductors |40 and |4| to L3. The winding |39 being thus energized moves the armature |42 to the left thereby completing a holding circuit through the winding |39 independent of the switch |32, such circuit being from L2 through conductors |33 and |43, switch element |44, conductor |45,switch |30, conductor |38, winding |39 and conductors |40 and |4| to L3. The winding |39 will thus remain energized and hold the switch elements |46, |41 and |48 in position to complete a three-phase circuit from L1, L2 and L3 through conductors |4I, |33 and |50, switch -elements |46, |41 and |48 and conductors |5I, |52 and |53 to the clamping and unclamping motor 99. The motor 99 operates to loosen the nuts 92 and consequently releases the bolts 68 whereby they become free to rotate within the elements 1|. At

the same time the rotation of the motor 99 results in moving the element ||3 to the left as seen in Fig. '7.

When the motor 99 has operated to move the element ||3 a predetermined distance, suflicient to unclamp the bolts, the element 21 contacts the switch points and |26 whereby the adjusting circuit may be closed by the adjusting switches |54 and |15. Almost immediately thereafter the cam I5 operates the arm ||9 to open the switch whereby the holding circuit through the relay winding |39 is broken and the motor 99 is stopped. As was stated above, the motion of the element I I3 toward the left results very shortly after the .beginning thereof in breaking the circuit through upon current will ow from Lthrough conductor |55, relay winding |56, conductor |51, switch |54, conductor |58, switch |21 which will then be closed as previously explained, conductor |59 and conductors |34 and |33 to L2. AThis will result in closing the switches |60, |6| and |62 whereby current will flow from L1, I P and I..3 through cond ctors |63, |64 and |65, conductors |66, |61, It, switches |60 and I6| and |62, conductors |69, |10 and |1| and conductors |12, |13 and |14 to the adjusting motor 8|. The motor 8| will continue to run until the circuit through the switch |54 is broken by the operator, whereupon the winding |56 will be deenergized and the motor 8| will stop..`

Should the operator desire to adjust the slide downwardly instead of upwardly, he will close the switch |15 whereupon current will flow from L3 through conductors |65, |68 and |16', relay winding |11, conductor |18, switch |58, switch |15,

53 and conductors 221 and 2|8 to L2.

conductor |58, switch |21, conductor |59 and con-v 'ductors |34 and |33 to L2. This will result in ductors |63, |64 and |65, conductors |66, |61 and |68, switches |19, and |8|',conductors |69, |10 and |1| and conductors |12, |13 and |14 to the adjusting motor 8|, it being observed that in this casey two of the leads to the motor 8| are reversed as compared with the connection made when the switch |54 is closed whereby such motor operates in a reverse direction.- resulting in downward motion of the slide I2.

The 'slide having been adjusted as desired, the operator will press lthe clamping switch |82 whereupon current will flow from l..2 through lconductors |33, |34, |35 and |83, switch |82, conductors |84 and |85, thermal relay switch |86, conductor |81, relay winding |88 and conductors |89, |40 and |4| to L3. Energization of the winding |88 will result in closing the switchl 90 whereupon a holding circuit is formed from L2 through conductors |33, 9|, switch |90, conductors |92 and |85, thermal relay switch |86, conductor |81, winding |88 and conductors |89, |40 and |4| to L3. At the same time the switch |90 is closed, switches |93, |94 and |95 are closed whereby a three-phase circuit is made through conductors |4I, |33 and |50, switches |93, |94 and |95, conductors |96, |91 and |98, thermal relay heating elements |99, 290 and 20| and conductors 202, 203 and 204 tothe clamping motor 99, relay windings 205 and 206 being interposed between a thermal relay element 20| and conductor 202 and thermal element 200 and conductor 203 respectively. This circuit is maintained until the motor 99 stalls whereupon'excessive current passes through the thermal relay heating elements |99, 200 and 20| resulting in an increase in resistance and a weakening of the attracting force of windings 205 and 206 whereby the spring 201 operates to open the switch |86.

It will now be clear that the reverse operation of the motor 99 will have restored the element ||3 to the position shown in Fig. 7 whereby the switch |21 is open as indicated in Fig. l0a and the switch |23 is closed.

The operator now presses the starting switch 208 whereupon current flows from L3 through conductor 209, manual switch 2|0, conductors 2| I, 2|2 and 2|3, switch 208, conductor 2|4, relay winding 2|5, conductor 2 I6, switch |23, conductor 2|1 and conductor 2 |8 to L2. Energization of the winding 2|5 will close the switch 2|9 whereuponv current will flow from L3 through conductor 209, switch 2|0, conductors 2||, 2|2, 220, switch 22|, conductor 222, switch 2| 9, winding 2|5, conductor 2|6, switch |23 and conductors 2|1 and 2|8 to L2. It will be observedthat this circuit depends upon switch 22| being closed. 'I'he switch 22| is controlled by a cam 223 on the shaft 28 whereby when the press has been operated the desired distance, the holding circuit through the switch 2 I9 will be broken and consequently the solenoid' 53 will be deenergized, its circuit being from L3 through conductor 209, switch 210, conductors 2| and 224, switch 225, conductor 226, solenoid When the holding circuit through switch 2| 9 and winding 2|5 is broken, the switch 225 will be opened by the spring 228 and the solenoid 53 consequently deenergized. As previously explained, deenergization of the solenoid 53 will result in disengagement of the clutch 43 and application of the brake 58 whereupon the press will be suddenly brought to a stop. While as has been stated, the cam 223 on the shaft 28 controls the switch 22|, it is to be understood that the switch 22| may be operated by any suitable part of the4 press drive whereby it becomes possible-to impart to the slide the desirable movement previous to disengaging the clutch 43. 'A simple arrangement ofxthe switch 22| would be one causing the press to make one complete rotation of the shafts 28 and stop. Numerous others are obviously possible and well within the contemplation of the invention. The arrangement of the -cam 223 is such that when the press reaches a predetermined ,point, the switch 22| will be opened momentarily and allowed to close again by the motion of the press parts between the time of such.

opening of the switch 22| and the time the press actually comes to a full stop.

From the foregoing it vwill be apparent that I have provideda devicewhich is well adapted to accomplish the above stated objectsand while I have shown and described the present preferred embodiment, I Wish it understood that changes may be made within the scope of the invention and that I am limited only in accordance with the appended claims.v

Having thus described my invention, what I claim is:

1. In a press, in combination, a reciprocable slide, slide reciprocating means having an expansible element connected to said slide, motor operated means for adjusting said expansible element, motor operated means for clamping the same against adjustment, and means responsive ,to operation of the last mentioned mean-s to unclamping position for rendering said slide reciprocating means inoperable and responsive to operation thereof to clamping position for render# ing said slide reciprocating means operable.

2. In a press, in combination, a reciprocable slide, slide reciprocating meansn having an eX-' operated means for adjusting said expansible element, motor operated means for clamping the same against adjustment, and means responsive y to operation of the last mentioned means to un` clamping position for rendering said adjusting.

means operable and responsive to operation to clamping position to render said adjusting means inoperable.

3. In al press, in combination, a reciprocable slide, slide reciprocating means having an eX- pansible element connected to said slide, motor operated means for adjusting said eirpansibleY element, motor operated means for clamping thev same against adjustment, and means responsive to operation of the last mentioned means to unclamping position for rendering said slide reciprocating means inoperable and said adjusting means operable and responsive -to operation thereof to clamping position for rendering said slide reciprocating means operable and said ad-- justing means inoperable.

4. In a press, in combination, a reciprocable slide and cooperating frame, crown and bed parts; electrically controlled means, including adjustable connectors, for reciprocating said slide, salu' connectors comprising relatively movable parts for increase or decrease of the effective lengths" "thereof, mechanism for clamping said relatively movable parts together, electrically controlled means for operating said clamping mechanism to 'and from clamping position, electrically controlled mechanism for vadjusting said relatively movable parts when not clamped together, and

neans responsive to motion of the operating neans for the clamping mechanism toward un- :lamping position vfor rendering the slide recip- :ocating means inoperable. l

-5. In a press, in combination, a reciprocable slide and cooperating frame, crown and bed parts, electrically controlled means, including adjustable connectors, for reciprocating said slide, said connectors comprising relatively movable parts for increase or decrease of thel effective lengths thereof, mechanism for clamping said relatively movable parts together, electrically controlled means for operating said clamping mechanism to and from clamping position, electrically controlled mechanism for adjusting said relatively movable parts when not clamped together, and means responsive to motion of the operating means for the clamping. mechanism toward unclamping position for rendering the slide, reciprocating means inoperable and rendering the adjusting mechanism operable.

6. In a press, in combination, a reciprocable slide and cooperating frame, crown and bed parts, electrically controlled means, including adjustable connectors, for reciprocating said'slide, .said connectors comprising relatively movable parts for increase or decrease of the effective lengths thereof, mechanism for clamping said relatively movable parts together, electrically controlled i means for operating said clamping mechanism to and from clamping position, electrically controlled mechanism for adjusting said relatively movable parts when not clamped together, and means responsive to motion of the operating means for the clamping mechanism to clamped.

position for rendering the adjusting means inoperable.

' '7. In a press, in combination, a yreciprocable slide and cooperating frame,` crown and bed parts, electrically controlled means, including adjustable connectors, for reciprocating said slide, said connectors comprising relatively movable parts for vincrease or decrease of the effective lengths thereof, mechanism for clamping said relatively movable parts'together, electrically controlled means for operating said clamping mechanism to and from lclamping position, electrically controlled mechanism for adjusting said relatively movable parts when not clamped together, and means vresponsive to motion of the operating means for the clamping mechanism to clamped position for rendering the adjusting means inoperable and the slide reciprocating means operable.

f8. In a press, in combination, a reciprocable slide and cooperating framefcrown and bed parts, electrically controlled means, including adjustable connectors, responsive to an initialswitch closing operation, for automatically reciprocating said s lidethrough a predetermined cycle and bringing it to rest at the end' of 'such cycle, said connectors comprising relatively movable parts for increase, or decrease ofthe effective lengths thereof, mechanism 4for clamping said relativelyV movable parts together,l electrically controlled means, responsive toan initial switch closing operation for operating the clamping mechanism automatically to a predetermined extent. and

4 lswitch operating mechanism electrically controlled mechanism for adjusting said relatively movable parts, said last men'- tioned electrically controlled means being operable responsive to a second initial switch closing operation for automatically operating said clamping mechanism to full clamping position.

9. In a press, in combination, a reciprocabie slide and cooperating frame, crown and bed parts, K

electrically controlled able connectors, responsiveto an initial switch closing operation, for automatically reciprocating said slide through a predetermined cycle and bringing it to rest at the end of such cycle, said connectors comprising relatively movable parts for increase or decrease of the effective lengths thereof, mechanism for clamping said relatively movable parts together, electrically controlled means, responsive to an initial switch closing operation for operating the clamping mechanism automatically to a predetermined extent, and electrically controlled mechanism for adjusting said relatively movable parts, said last mentioned electrically controlled means being operable responsive to a second initial switch closing operation for automatically operating said clamping mechanism to full clamping position and rendering the slide reciprocating means operable.

10. In a metal drawing press, in combination, a reciprocable slide and cooperating frame, crown and die supporting bed,` electrically controlled means, including adjustable connectors, for reciprocating said'slide, said connectors comprising nuts having compressible portions and rotatable bolts received therein, clamping means associated with the compressible portions of each nut, electrically Acontrolled means foroperating said clamping means to and from clamping and unclamping positions,v` switches and switch operating mechanism associated with said last means and operated thereby, electrically controlled means for rotating said bolts for adjustment of said slide, and means including said switches and. switch operating mechanism operated by said clamping means, for rendering said first means inoperable when said clamping means is in unclampedposition. v

1l. In a press, in combination, a reciprocable slide and cooperatingframe, crown and bed parts. electrically controlled means, including adjustable connectors, for reciprocating said slide, said connectors comprising -nuts having compressible portions and rotatable bolts received therein, clamping means associated with the compressible portions of each nut, electrically controlled means for operating said clamping-means to and lfrom clamping and unclamping positions, switches and associated withsaid last means and operated thereby, electrically controlled means for rotating said bolts for adjustyment of said slide, and means including said .switches and switch operating mechanism oper- .ated by said clamping means for rendering said first. means inoperable when said clamping means is in-unclamped position and for rendering said bolt rotating means inoperable when said clamping means is in clamped position.

' ROSS B. TREER.

means, including 'adjust- 

